Dr, Ayman Ezzat

Dr, Ayman Ezzat

1- Delegating Computation using Fully Homomorphic Encryption (FHE): Cloud security is a common concern in many markets today, including the Egyptian Ministry of Communication. Many users today worry for their data and/or trade-secret algorithms that they are not willing to submit them to the cloud for execution even if they need to. The aim of this project is to allow a user to send his program to the cloud for execution, while preserving the secrecy of both, his data, and his algorithm. The approach to this problem will employ Fully Homomorphic Encryption (see the list of references below) to implement an LLVM virtual machine, that will be able to execute any application, given it was compiled to LLVM, and then encrypted using an FHE scheme.

2- Cryptographic E-Voting: Electronic voting have been a rising field of research for the past few years and have been deployed in real-life situations in many countries. However, the existing approaches may not cover all the challenges facing developing countries. In particular, the unavailability of a reliable internet connection in many rural–and sometimes urban–areas; the potentially widespread corruption; and the illiteracy, whether to reading or to technology. The goal of this project is to investigate and implement a (partial) solution that is tailored to the unique challenges in Egypt, a developing country, using advanced cryptographic techniques, while at the same time assuring the whole system can tolerate the decaying infrastructure and be easily understandable by the general public.

Dr, Ayman Ezzat

In order a quickly and easily to create Augmented Reality and real-time application.We would like to build a smart augmented reality engine that allows ordinary users to develop their own AR education/entertainment applications. The engine aims to reduce the development cost and time needed to develop an AR application. Even-thought their exist some commercial AR engines they either requires programming knowledge or restricting their usage to predefined setups. We aim to deliver an AR engine that can utilize novel IHCII input devices (Kinect , WII, leap motion,…ETC). Moreover, ARENA allows ordinary users to build their own AR markers and scenarios with a usable GUI. ARENA users can create an Augmented reality application on mobile application.

Dr, Ayman Ezzat

Interaction GroupSCoTT: A seamless large display and table interaction for camera surveillance.

Team Members:

1- Mahmoud Mohammad Abd-elhmed

2- Muhammad Hossam El-din Mohamed

3- Abdelrahman Tarek Nasr

4- Ehab Mohammad Soliman

5- Muhammad Najeeb Taha

6- Muhammad Tariq Mosad

SCoTT is an innovative system that displays the live feed coming from security cameras in a smart way using a touch table and a big display in order to better visualize the cameras feed and to ease the interaction with it.

Dr, Ayman Ezzat

Medika a new product that provides doctors and medical institutions with new tools that facilitate and change the way doctor’s store and view medical data. In hospitals and medical institution information is vital in saving lives every day. Today’s hospitals use traditional computer based-systems to manage the patient’s information. This is extremely inefficient and complex in an organization that deals with human lives.

Our solution offers a new product built upon an augmented reality glasses and large multi-touch surface. Using natural human computer interaction techniques to interact with the patient’s information. The product would reduce the time and effort required by doctors to insert new medical information during examinations. Also changing the method doctor’s view previous patient’s examinations and medical history. Allowing doctors to collaboratively insert, view and share patient’s information during examinations with great ease and in less time. We aim to build a complete platform that supports the usage of augmented reality and touch surface interface in the medical field. Designing and developing new way to interact with the augmented reality device. Also construct new techniques that support working across the several devices used in our solution.

Dr, Ayman Ezzat

The YIA Program aims to positively impact the scientific culture in Egypt, and to produce more equipped scientists in the future by helping undergraduate, graduate and PhD students gain access to training, funding, information, equipment, and supplies that may better meet the needs of their research projects at Egyptian national universities.

ProkiWII present an intuitive interaction technique for everyday objects. We propose a system that allows the user to interact with everyday objects, and use them to make smart scenarios. We enrich the objects with a portable projected interface that is supported by 3D accelerometer in order to build novel user object interaction scenarios. Moreover, we present double crossing as an interaction technique for manipulating finger interface. We conducted experiment to test the applicability of the proposed system with different applications. Our results showed that the proposed system has a lot of potentials to enrich different domains of applications like object data storage, education Montessori cubes and smart shopping goods.

Dr, Ayman Ezzat

HCI-LAB , Interaction Group win the3rd Position of Kinect Track and being marked by Microsoft ATL for GP 2012-2013 named RemoAct: Portable Projected Interface with Hand Gesture Interaction.

RemoAct is a wearable depth sensing and projection it makes interaction with the surrounding environment more intuitive through sharing and sending data with surrounding humans by applying certain gestures. Not only can you interact with humans but you can also send commands thorough gestures to other machines in the surrounding environment like printers, display screens, and projectors. Unlike some other wearable systems you have no need to wear gloves or even have a setup forevery environment, on the contrary this system offers a mobile and robust solution for interacting using a projected surface on habitual flat surfaces or even flat organic surfaces like the user’s hand, and at the same time interact with different people and different machines in different environments without the need for any further system configurations.